KR102266652B1 - Automatic air cleaning system using dust sensor - Google Patents

Abstract

The present invention is a situation-customized automatic air cleaning system that is divided into at least two spaces through a wall and a door, and is applied to a building interior in which at least one window is provided in each space, the user's location, indoor dust level, and It relates to a situation-tailored automatic air cleaning system that provides the best possible air to users and minimizes electricity bills by performing window ventilation and air cleaning according to the indoor radon level situation.

Description

Automatic air cleaning system tailored to the situation {AUTOMATIC AIR CLEANING SYSTEM USING DUST SENSOR}

The present invention relates to a situation-customized automatic air cleaning system, and more specifically, to a situation-customized application to a building interior that is divided into at least two or more spaces through a wall and a door, and at least one window is provided in each space In the automatic air cleaning system, window ventilation and air cleaning are performed according to the user's location, indoor dust level, and indoor radon level to provide the user with the best possible air and at the same time minimize the electricity bill. will be.

Recently, as factors that deteriorate indoor air quality, radon gas, which is one of the environmental radiations directly introduced from the ground, and fine dust and ultrafine dust introduced by the flow of the atmosphere are attracting attention.

People's interest in the fine dust and ultra-fine dust has increased dramatically since the weather forecast started forecasting recently, and accordingly, research and development on an automatic air cleaning system that purifies indoor fine dust and ultra-fine dust is being actively conducted. .

However, since the air cleaning system is turned on or off by measuring only the indoor air quality, the air cleaning system operates according to the indoor air quality even in situations where the indoor air quality can be improved just by opening a window for ventilation, such as when the outdoor air is good. As a result, there was a problem of excessively large power consumption.

In addition, the radon is one of the environmental radiation generated by uranium decay, and because it has a colorless and odorless gas state, it is absorbed into the human body by respiration, and is known as a first-class carcinogen that causes lung cancer by radiation exposure, mainly in buildings. It flows into the room through cracks in the building from the ground floor of the building, but it is also generated from the uranium decay contained in cement, soil, and other interior and exterior materials used in building construction and flows into the room.

As such, to reduce radon gas entering the room, it is necessary to rely solely on periodic ventilation by residents. However, if the outdoor fine dust level or ultrafine dust level is high, if the window is opened for ventilation, even if radon is emitted, fine dust And there was a problem that ultrafine dust was introduced into the room, so users were reluctant to ventilate. As a result, there was a problem that users were excessively exposed to radon.

In order to solve this problem, the present invention provides the best air to the user by performing window ventilation and air cleaning according to the user's location, indoor dust level, and indoor radon level situation, thereby providing the best possible air to the user and at the same time minimizing the electricity cost. We would like to present an air cleaning system.

Next, the prior art existing in the field to which the technology of the present invention belongs will be briefly described, and then the technical matters that the present invention intends to achieve differently compared to the prior art will be described.

First, Patent Publication No. 10-2019-0068029 (published on June 18, 2019) relates to an air purification and air conditioning system for improving indoor air quality, and more specifically, a heat exchange device for indoor and outdoor air, internal and external air It consists of a filter for removing fine dust contained in the air, a pressure conversion adsorption device for oxygen generation and carbon dioxide removal, and a photoelectrocatalyst device for purifying harmful gases, thereby controlling the concentration of oxygen and carbon dioxide in the indoor air and removing fine dust and harmful gases. Thus, there is described a technology for an air purification and air conditioning system for improving indoor air quality that can keep indoor air always pleasant.

In addition, Patent Publication No. 10-2015-0105663 (published on September 18, 2015) relates to a control system for exhausting pollutants introduced into the interior of a building or generated indoors by building materials, more specifically By effectively discharging air pollutants such as radon gas flowing into the room from the lower ground on which the building is built or the structures constituting the building, or yellow dust or fine dust flowing from the outside air, to the outside of the building, the indoor occupants are exposed to an environment harmful to the human body. A technology related to an indoor pollutant emission control system of a building capable of protecting against pollutants is described.

In addition, Patent Publication No. 10-1885720 (published on August 6, 2018) relates to a remote building control system capable of controlling individual indoor air quality in an IOT environment, and more specifically, an indoor connected to an indoor air measurement sensor installed in an individual room. A technology related to a remote building control system configured to remotely monitor or control air quality data limited to an individual room, transmitted through an air measurement sensor, through an Internet-connected app or web is described.

The prior art has some similarities to the present invention in that it is a technique for measuring and purifying and evacuating air quality such as indoor fine dust, ultrafine dust, and radon levels, but indoor radon levels are high on a day when the fine dust level or ultrafine dust level is high. There was a problem in that the user was exposed to fine dust or ultra-fine dust when ventilation was performed for exhaust.

Unexamined Patent Publication No. 10-2019-0068029 (published on June 18, 2019) Publication No. 10-2015-0105663 (published on September 18, 2015) Registered Patent Publication No. 10-1885720 (2018.08.06. Announcement date)

The present invention was created to solve the above problems, and is divided into at least two spaces through a wall and a door, and is applied to an automatic air cleaning system applied to a building interior in which at least one window is provided in each space. In the following, at least one of indoor fine dust level and ultrafine dust level is measured, and the air purifier is turned on or off according to the indoor dust level, and at least one or more of outdoor fine dust level and ultrafine dust level It measures the level and automatically opens or closes the window according to the outdoor dust level, and also detects the indoor radon level and above the indoor user, and opens a window in a space where the user is not located to ventilate if the indoor radon level is high. The purpose is to provide an automatic air cleaning system tailored to the situation.

In addition, as described above, the present invention detects the indoor radon level and above the indoor user, and when the indoor radon level is high, when the user opens a window in a space not located to ventilate, the door of the space where the user is located before opening the window The purpose of this is to provide a situation-specific automatic air cleaning system that prevents outdoor fine dust and ultra-fine dust from entering the space where the user is located by automatically closing it.

In addition, the present invention displays the dust level and radon level for each space through the display, so that the user can check the indoor air condition and the situation-customized automatic air cleaning system of the present invention determines its location to perform optimal ventilation and air cleaning The purpose is to provide a situation-specific automatic air cleaning system that induces

In addition, the present invention is to provide a situation-tailored automatic air cleaning system that can minimize outdoor fine dust and ultrafine dust from entering the room by forming a water curtain composed of water particles on the window during window ventilation. There is a purpose.

Another object of the present invention is to provide a situation-tailored automatic air cleaning system capable of selectively performing air purification only in areas with poor dust levels by measuring dust levels in various parts of an indoor space.

According to an embodiment of the present invention, the situation-tailored automatic air cleaning system is divided into at least two or more spaces through a wall and a door, and is applied to the interior of a building in which at least one window is provided in each space, the door opening and Door opening to control closing; a window opening unit for controlling the opening and closing of the window; an air purifier installed in each space to purify indoor air; an infrared sensor unit installed in the space and including an infrared sensor for detecting whether a person is located in the space; an outdoor air quality measurement unit installed on the outdoor side of the window to measure a level of dust including at least one of a level of fine dust and a level of ultrafine dust; an indoor air quality measurement unit installed on the indoor side of the window to measure a level of dust including at least one of a level of fine dust and a level of ultrafine dust and a level of radon; a display unit installed in each space to display a level of dust including at least one of a level of fine dust and a level of ultrafine dust and a level of radon; and 'good' and 'bad' of the dust level and 'good' and 'bad' of the radon level by comparing the values measured by the outdoor air quality measuring unit and the indoor air quality measuring unit with the stored dust standard value and the radon standard value. and a control unit for controlling the door opening unit, the window opening unit and the air cleaning unit based on this, and the control unit includes, when the dust value measured by the indoor air quality measurement unit is 'bad', the air Turn on the purifier, turn off the air purifier when the dust value measured by the indoor air quality measurement unit is 'good', and turn off the air purifier when the dust value measured by the outdoor air quality measurement unit is 'good' and in the indoor air quality measurement unit When the measured dust level is 'bad', the window opening unit is controlled to open the window, and when the dust level measured by the outdoor air quality measurement unit is 'bad', the window opening unit is controlled so that the window is basically closed. However, exceptionally, when the radon level measured by the indoor air quality measurement unit is 'bad', the window opening unit is controlled to open the window, and when the radon level is 'bad', the window opening unit is configured to open the window. In controlling, when a person is located in at least one space based on the information sensed by the infrared sensor unit and the dust level measured by the outdoor air quality measurement unit is 'bad', the door of the space where the person is located is closed. control the door opening unit to keep the door open, control the window opening unit to open only the window of a space where no person is located, and control the door opening unit to close the window when the radon level measured by the indoor air quality measurement unit changes to 'normal' control, and when the dust level and radon level measured by the indoor air quality measurement unit change to 'normal', the door opening unit is controlled to open the door of the space where the person is located.

In addition, as an embodiment, the display unit is characterized in that it displays the dust level and the radon level for each space.

In addition, as an embodiment, the automatic air cleaning system tailored to the situation according to the present invention is installed on a window frame of a window, and when the window is opened, water is sprayed to form a water curtain formed of water particles. ; when the control unit controls the window to open because the radon level measured by the outdoor air quality measurement unit is 'bad', when the dust level measured by the outdoor air quality measurement unit is 'bad' It is characterized in that the water curtain forming unit is controlled to form a water curtain in an open place of the window.

In addition, as an embodiment, the water barrier forming unit, two sheets of insect screens spaced apart in parallel at a predetermined interval; A plurality of water jetting pipes formed between the two screens and in which a plurality of water jetting ports for spraying water particles are formed in a line with a predetermined interval are formed between the two sheets of screens at a predetermined interval in the vertical or horizontal direction. Water spray modules formed in parallel; and a water discharging module formed at a lower portion between the two sheets of insect screen and discharging water that is sprayed from the water jetting module and collected at the bottom to the outside.

In addition, as an embodiment, the water discharge module may include: a discharge pipe through which water is discharged to the outside; and a motor pump for discharging water through the discharge pipe.

In addition, as an embodiment, the situation-customized automatic air cleaning system according to the present invention includes a space air mixing unit formed on the door or wall and including a fan for supplying air from one space to the other space; and When the radon level is 'bad', the control unit controls the window opening unit to open the window, a person is located in at least one space based on the information sensed by the infrared sensor unit, and the outdoor air quality is measured When the dust level measured in the unit is 'bad', the door opening unit is controlled to close the door of the space where the person is located, and the window opening unit is controlled to open only the window of the space where the person is not located, and the indoor When the radon level measured by the air quality measurement unit changes to 'normal', the door opening unit is controlled to close the window, and when the dust level and radon level measured by the indoor air quality measurement unit change to 'normal', the space where the person is located It is characterized in that the door opening and closing part is controlled to open the door, and the space air mixing part is controlled to supply the air of the space in which the radon level has changed to 'normal' to the space where the person is located.

In addition, as an embodiment, the situation-customized automatic air cleaning system according to the present invention is installed at different positions in the respective spaces, and measures the dust level including at least one of the fine dust level and the ultra-fine dust level at least two or more dust sensors; and an air intake tube extending from the air cleaning unit to each area in which the dust sensor is located so that the air cleaning unit can suck air from each area in which the dust sensor is located. The control unit compares the dust value measured by the dust sensor with the stored dust reference value to derive 'good' and 'bad' of the dust value, and the air purifier is located in an area where the dust value is bad. It is characterized in that it controls to suck air from the suction tube and purify it.

The present invention was created to solve the above problems, and is divided into at least two spaces through a wall and a door, and is applied to an automatic air cleaning system applied to a building interior in which at least one window is provided in each space. In this case, by measuring indoor and outdoor dust levels to perform air cleaning or ventilation, there is an effect of minimizing the electricity cost consumed for air cleaning.

In addition, the present invention detects the location of the indoor user, and when the outdoor dust level is high, the space where the user is located is closed by closing the door, and the dust introduced into the room after radon is discharged by ventilating only in the space where the user is not located. By supplying the purified air to the space where the user is located after purifying the air, there is an effect that ventilation for radon emission can be performed without harm to the user even on a day when the outdoor dust level is high.

In addition, the present invention has the effect of minimizing outdoor fine dust and ultrafine dust from entering the room by forming a water curtain composed of water particles on the window during window ventilation.

In addition, the present invention measures the dust level in various places in the indoor space to selectively perform air purification only in areas with a bad dust level, thereby minimizing the power consumed for air purification and simultaneously purifying the entire indoor space. there is

1 is a block diagram showing the configuration of a situation-customized automatic air cleaning system according to an embodiment of the present invention.
2 to 4 are schematic diagrams for explaining the function of the situation-customized automatic air cleaning system according to an embodiment of the present invention.
5 is a view for explaining the water curtain forming part of the situation-customized automatic air cleaning system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a situation-customized automatic air cleaning system according to the present invention according to the present invention is described in detail so that those of ordinary skill in the art can easily practice the present invention. let me explain

In each drawing of the present invention, the size or dimensions of the structures are enlarged or reduced than the actual size for clarity of the present invention, and well-known components are omitted to reveal the characteristic configuration, so it is not limited to the drawings. .

In the detailed description of the principle of the preferred embodiment of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

The present invention is a situation-customized automatic air cleaning system that is divided into at least two spaces through a wall and a door, and is applied to a building interior in which at least one window is provided in each space, the user's location, indoor dust level, and It relates to a situation-tailored automatic air cleaning system that provides the best possible air to users and minimizes electricity bills by performing window ventilation and air cleaning according to the indoor radon level situation.

Hereinafter, an embodiment of the situation-customized automatic air cleaning system of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a situation-customized automatic air cleaning system 100 according to an embodiment of the present invention, and FIGS. 2 to 4 are a situation-customized automatic air cleaning system ( 100) is a schematic diagram for explaining the function of

1 and 2, the situation-customized automatic air cleaning system 100 according to the present invention includes a door opening 101, a window opening 102, an air cleaning unit 103, and an infrared sensor unit 104. ), an outdoor air quality measurement unit 105 , an indoor air quality measurement unit 106 , a display unit 107 , and a control unit 108 .

The door opening unit 101 controls the opening and closing of the door by the control signal of the control unit 108 , and the window opening unit 102 opens and closes the window according to the control signal of the control unit 108 . is to control

The air purifier 103 is installed in each space to purify indoor air.

The infrared sensor unit 104 is installed in each space to detect whether a person is located in each space, and for this purpose, an infrared sensor is included.

The outdoor air quality measuring unit 105 is installed on the outdoor side of the window to measure a dust level including at least one of a fine dust level and an ultrafine dust level, and the indoor air quality measuring unit 106 is installed on the window It is installed on the indoor side of the air conditioner to measure the level of dust including at least one of the level of fine dust and the level of ultrafine dust, along with the level of radon.

The display unit 107 is installed in each space to display the dust level and the radon level including at least one of the fine dust level and the ultrafine dust level as image information.

In addition, the display unit 107 may include a speaker for outputting audio information in addition to image information.

The control unit 108 compares the values measured by the outdoor air quality measurement unit 105 and the indoor air quality measurement unit 106 with the stored dust reference value and the radon reference value to determine the 'good' and 'bad' values of the dust. and 'good' and 'bad' of radon levels are derived, and based on this, the door opening unit 101, the window opening unit 102 and the air cleaning unit 103 are controlled.

The function of the control unit 108 will be described in more detail as follows.

Table 1 below is a table showing the contents of the control unit 108 controlling the door opening unit 101, the window opening unit 102 and the air cleaning unit 103 according to the indoor dust level, the indoor radon level, and the outdoor dust level .

indoor dust indoor radon outdoor space with people door space without people window air cleaning window air cleaning good good bad closed off - closed off good good good - off - - off good bad good open off - open off good bad bad closed off closed open On bad good bad closed On - closed On bad good good open off - open off bad bad good open off - open off bad bad bad closed On closed open On

As shown in Table 1, when the dust value measured by the indoor air quality measuring unit 106 is 'bad', the control unit 108 turns on the air purifying unit 103 and the indoor air quality measuring unit 106 is turned on. When the dust value measured in (106) is 'good', the air cleaning unit 103 is turned off. As such, since air cleaning is performed only when the indoor air quality is poor, unnecessary power consumption for air cleaning can be saved.

In addition, the control unit 108 controls the window to open when the dust level measured by the outdoor air quality measurement unit 105 is 'good' and the dust level measured by the indoor air quality measurement unit 106 is 'bad'. Controls the window opening (102).

In addition, when the dust level measured by the outdoor air quality measurement unit 105 is 'bad', the control unit 108 controls the window opening unit 102 to basically close the window, except for the indoor air quality. When the radon level measured by the measurement unit 106 is 'bad', the window opening unit 102 is controlled to open the window.

At this time, in controlling the window opening unit 102 to open the window when the radon level is 'bad', a person is located in at least one space based on the information detected by the infrared sensor unit 104 . and when the dust level measured by the outdoor air quality measuring unit 105 is 'bad', the door opening unit 101 is controlled to close the door of the space where the person is located, and the window of the space where the person is not located. The window opening unit 102 is controlled to only open, and when the radon level measured by the indoor air quality measurement unit changes to 'normal', the door opening unit 101 is controlled to close the window, and the indoor air quality measurement unit When the dust level and the radon level measured at (106) change to 'normal', the door opening unit 101 is controlled to open the door of the space where the person is located.

In this way, when the indoor radon level and the outdoor dust level are 'bad' at the same time, the door of the space where the user is located is closed to separate the space into the space where the user is located and the space where the user is not located, and only the space where the user is not located By releasing radon by opening the window, it has the effect of lowering the indoor radon level while preventing external fine dust and ultrafine dust from entering the space where the user is located.

In addition, the control unit 108 controls the open/close state of the door and window and the operation state information of the air purifier 103 in addition to the dust level and radon level including at least one of the fine dust level and the ultrafine dust level for each space. indicate

5 is a view for explaining the water curtain forming unit 109 of the situation-customized automatic air cleaning system 100 according to an embodiment of the present invention.

As shown in FIGS. 1 and 5 , the situation-tailored automatic air cleaning system 100 according to the present invention minimizes outdoor fine dust and ultra-fine dust from flowing into the room when the window is opened. It is configured to include a forming portion (109).

The water curtain forming unit 109 is installed on a window frame of a window of each space, and when the window is opened, water is sprayed to form a water curtain composed of water particles.

When the control unit 108 controls the window to open because the radon level measured by the outdoor air quality measurement unit 105 is 'bad', the dust level measured by the outdoor air quality measurement unit 105 is 'bad'. In this case, the water barrier forming unit 109 is controlled to form a water barrier in an open area of the window.

In more detail, the water curtain forming unit 109 includes two insect screens 109-3 spaced in parallel at a predetermined interval and a water spray module 109 formed between the two insect screens 109-3. -1) and a water discharge module 109-2.

In the water spray module 109-1, a plurality of water spray pipes in which a plurality of water spray holes for spraying water particles are formed in a line with a predetermined interval are vertically or horizontally between the two insect screens 109-3. By having a structure that is formed in parallel at a predetermined interval in the direction, a water barrier composed of water molecules can be effectively formed in an open area of the window.

The water discharge module 109-2 is formed in the lower portion between the two sheets of insect screens 109-3, and discharges the water that is sprayed from the water spray module and collects in the lower part to the outside, and the water is discharged to the outside. and a discharge pipe and a motor pump for allowing water to be discharged through the discharge pipe.

Fine dust and ultrafine dust outdoors are physically filtered by the water barrier formed of the water molecules, and fine dust and ultrafine dust having a positive charge are chemically combined with water molecules having a negative charge. The inflow of dust and ultrafine dust into the room is suppressed.

In addition, the situation-customized automatic air cleaning system 100 according to the present invention, as shown in FIG. 1, has poor indoor radon levels and outdoor dust levels, so close the door of the space where the user is located and the window of the space where the user is not located. After opening to discharge radon and purify the dust introduced into the room, it may further include a spatial air mixing unit 110 for quickly supplying air with a lowered radon level to the space where the user is located.

The spatial air mixing unit 110 is formed on the door or wall and includes a fan for supplying air from one space to the other space.

At this time, when the radon level is 'bad', the control unit 108 controls the window opening unit 102 to open the window, based on the information detected by the infrared sensor unit 104 at least When a person is located in one or more spaces and the dust level measured by the outdoor air quality measurement unit 105 is 'bad', the door opening unit 101 is controlled to close the door of the space where the person is located, and the person The window opening unit 102 is controlled to open only the window of a space not located in this location, and the door opening unit 101 is controlled to close the window when the radon level measured by the indoor air quality measurement unit changes to 'normal'. When the dust level and radon level measured by the indoor air quality measurement unit 106 change to 'normal', the door opening unit 101 is controlled to open the door of the space where the person is located, and the radon level is The spatial air mixing unit 110 is controlled to supply air from the space changed to 'normal' to the space where a person is located.

In addition, as shown in FIG. 1 , the situation-customized automatic air cleaning system 100 according to the present invention includes at least two or more dust detection sensors 111 and air It is configured to include a suction tube (112).

The situation-customized automatic air cleaning system 100 according to the present invention can selectively perform air purification only in areas with bad dust levels by using the air cleaning function using the dust detection sensor 111 and the air intake tube 112. Therefore, it is possible to purify the entire indoor space while minimizing the power consumed for air purification.

The dust sensor 111 is installed at different positions in the respective spaces, and measures the dust level including at least one of the fine dust level and the ultrafine dust level.

The air intake tube 112 is each in which the dust sensor 111 is located in the air purifier 103 so that the air purifier 103 can suck air from each area where the dust sensor is located. It has a structure that extends to the region of

With this configuration, the control unit 108 compares the dust value measured by the dust sensor 111 with the stored dust reference value to derive 'good' and 'bad' of the dust value, and By controlling the purifier 103 to suck and purify air from the air intake tube 112 located in an area with a bad dust level, it is possible to purify the air in all areas of the indoor space as well as to purify the air only in the minimum required area. Since purification is performed, there is an effect of minimizing power consumption.

As described above, the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are merely exemplary, and various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand that Therefore, the technical protection scope of the present invention should be defined by the following claims.

10 : door
20 : window
21 : window frame
100: situation-tailored automatic air cleaning system
101: door opening part
102: window opening
103: air cleaner
104: infrared sensor unit
105: outdoor air quality measurement unit
106: indoor air quality measurement unit
107: display unit
108: control unit
109: water curtain forming part
109-1: water spray module
109-2: water discharge module
190-3: insect screen
110: space air mixing unit
111: dust detection sensor
112: air intake tube

Claims (7)

In the situation-customized automatic air cleaning system that is divided into at least two or more spaces through walls and doors, and is applied to the interior of a building in which at least one window is provided in each space,
a door opening unit for controlling the opening and closing of the door;
a window opening unit for controlling the opening and closing of the window;
an air purifier installed in each space to purify indoor air;
an infrared sensor unit installed in each space and including an infrared sensor for detecting whether a person is located in each space;
an outdoor air quality measurement unit installed on the outdoor side of the window to measure a level of dust including at least one of a level of fine dust and a level of ultrafine dust;
an indoor air quality measurement unit installed on the indoor side of the window to measure a level of dust including at least one of a level of fine dust and a level of ultrafine dust and a level of radon;
a display unit installed in each space to display a level of dust including at least one of a level of fine dust and a level of ultrafine dust and a level of radon;
a space air mixing unit formed on the door or wall and including a fan for supplying air from one space to the other space; and
By comparing the values measured by the outdoor air quality measuring unit and the indoor air quality measuring unit with the stored dust standard value and the radon standard value, 'good' and 'bad' of the dust level and 'good' and 'bad' of the radon level Including; and a control unit for controlling the door opening and closing unit, the window opening unit and the air cleaning unit based on the derived,
The control unit is
When the dust level measured by the indoor air quality measurement unit is 'bad', the air purifier is turned on, and when the dust level measured by the indoor air quality measurement unit is 'good', the air purifier is turned off,
When the dust level measured by the outdoor air quality measurement unit is 'good' and the dust level measured by the indoor air quality measurement unit is 'bad', the window opening unit is controlled to open the window,
When the dust level measured by the outdoor air quality measurement unit is 'bad', the window opening and closing unit is controlled to basically close the window, but exceptionally, when the radon level measured by the indoor air quality measurement unit is 'bad', the window Controls the window opening to open,
In controlling the window opening to open the window when the radon level is 'bad',
When a person is located in at least one space based on the information sensed by the infrared sensor unit and the dust level measured by the outdoor air quality measurement unit is 'bad', the door opening and closing to close the door of the space where the person is located controlling the unit, controlling the window opening unit to open only the window of a space where no person is located, and controlling the door opening unit to close the window when the radon level measured by the indoor air quality measurement unit changes to 'normal', When the dust level and radon level measured by the indoor air quality measurement unit change to 'normal', the door opening unit is controlled to open the door of the space where the person is located, and the air in the space where the radon level has changed to 'normal' A situation-customized automatic air cleaning system, characterized in that controlling the spatial air mixing unit to supply to the space in which it is located.
◈Claim 2 was abandoned when paying the registration fee.◈ According to claim 1,
The display unit,
A situation-tailored automatic air cleaning system characterized by displaying the dust level and radon level for each space.
◈Claim 3 was abandoned when paying the registration fee.◈ According to claim 1,
It is installed on the window frame of the window, and sprays water when the window is opened to form a water curtain formed of water particles; it additionally includes,
The control unit is
When a window is controlled to open because the radon level measured by the outdoor air quality measurement unit is 'bad', when the dust level measured by the outdoor air quality measurement unit is 'bad', a water barrier is formed in the open area. A situation-tailored automatic air cleaning system, characterized in that it controls the water curtain forming part.
◈Claim 4 was abandoned when paying the registration fee.◈ 4. The method of claim 3,
The water barrier forming unit,
Two sheets of insect screens spaced in parallel at a predetermined interval;
It is formed between the two sheets of insect screen,
a water jet module in which a plurality of water jetting ports for jetting water particles are formed in a line with a predetermined interval in parallel with a predetermined interval in a vertical or horizontal direction between the two insect screens; and
A water discharging module formed in the lower portion between the two insect screens and discharging the water that is sprayed from the water jet module and collected at the bottom to the outside; a situation-tailored automatic air cleaning system comprising a.
◈Claim 5 was abandoned when paying the registration fee.◈ 5. The method of claim 4,
The water discharge module,
a discharge pipe through which water is discharged to the outside; and
A situation-customized automatic air cleaning system comprising a; a motor pump for discharging water through the discharge pipe.
delete According to claim 1,
at least two or more dust sensors installed at different positions in the respective spaces and configured to measure a level of dust including at least one of a level of fine dust and a level of ultrafine dust; and
and an air suction tube extending from the air cleaning unit to each area in which the dust sensor is located so that the air cleaning unit can suck air from each area in which the dust sensor is located.
The control unit is
By comparing the dust value measured by the dust sensor with the stored dust reference value, 'good' and 'bad' of the dust value are derived, and the air cleaning unit is located in an area where the dust value is 'bad'. A situation-tailored automatic air cleaning system, characterized in that it controls to suck air from the tube and purify it.

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